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Literature DB >> 28938088

Small-Molecule Inhibitors Targeting DNA Repair and DNA Repair Deficiency in Research and Cancer Therapy.

Sarah R Hengel¹, M Ashley Spies², Maria Spies³.

Abstract

To maintain stable genomes and to avoid cancer and aging, cells need to repair a multitude of deleterious DNA lesions, which arise constantly in every cell. Processes that support genome integrity in normal cells, however, allow cancer cells to develop resistance to radiation and DNA-damaging chemotherapeutics. Chemical inhibition of the key DNA repair proteins and pharmacologically induced synthetic lethality have become instrumental in both dissecting the complex DNA repair networks and as promising anticancer agents. The difficulty in capitalizing on synthetically lethal interactions in cancer cells is that many potential targets do not possess well-defined small-molecule binding determinates. In this review, we discuss several successful campaigns to identify and leverage small-molecule inhibitors of the DNA repair proteins, from PARP1, a paradigm case for clinically successful small-molecule inhibitors, to coveted new targets, such as RAD51 recombinase, RAD52 DNA repair protein, MRE11 nuclease, and WRN DNA helicase.

Entities: CellLine Chemical Disease Gene Mutation Species

Keywords: BLM DNA helicase; BRCA1; BRCA2; DNA repair; MRE11; PARP inhibitors; PARP1 (poly(ADP-ribose)polymerase1); RAD51; RAD52; RECQ1 DNA helicase; TOP1; WRN DNA helicase; homologous recombination

Mesh：

Substances：

Year: 2017 PMID： 28938088 PMCID： PMC5679738 DOI： 10.1016/j.chembiol.2017.08.027

Source DB: PubMed Journal: Cell Chem Biol ISSN： 2451-9448 Impact factor: 8.116

144 in total

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Authors: Melissa Price; Alvaro N A Monteiro
Journal: Biochem Pharmacol Date: 2010-05-25 Impact factor: 5.858

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Authors: Haijuan Yang; Philip D Jeffrey; Julie Miller; Elspeth Kinnucan; Yutong Sun; Nicolas H Thoma; Ning Zheng; Phang-Lang Chen; Wen-Hwa Lee; Nikola P Pavletich
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Journal: Nat Genet Date: 1995-10 Impact factor: 38.330

Review 4. Mechanism and regulation of DNA end resection in eukaryotes.

Authors: Lorraine S Symington
Journal: Crit Rev Biochem Mol Biol Date: 2016-04-20 Impact factor: 8.250

5. Platinum and PARP Inhibitor Resistance Due to Overexpression of MicroRNA-622 in BRCA1-Mutant Ovarian Cancer.

Authors: Young Eun Choi; Khyati Meghani; Marie-Eve Brault; Lucas Leclerc; Yizhou J He; Tovah A Day; Kevin M Elias; Ronny Drapkin; David M Weinstock; Fanny Dao; Karin K Shih; Ursula Matulonis; Douglas A Levine; Panagiotis A Konstantinopoulos; Dipanjan Chowdhury
Journal: Cell Rep Date: 2016-01-07 Impact factor: 9.423

Review 6. An Overview of the Molecular Mechanisms of Recombinational DNA Repair.

Authors: Stephen C Kowalczykowski
Journal: Cold Spring Harb Perspect Biol Date: 2015-11-02 Impact factor: 10.005

Review 7. How cancer cells hijack DNA double-strand break repair pathways to gain genomic instability.

Authors: Penny A Jeggo; Markus Löbrich
Journal: Biochem J Date: 2015-10-01 Impact factor: 3.857

8. Cooperation of RAD51 and RAD54 in regression of a model replication fork.

Authors: Dmitry V Bugreev; Matthew J Rossi; Alexander V Mazin
Journal: Nucleic Acids Res Date: 2010-11-21 Impact factor: 16.971

9. A Small-Molecule Inhibitor of RAD51 Reduces Homologous Recombination and Sensitizes Multiple Myeloma Cells to Doxorubicin.

Authors: David A Alagpulinsa; Srinivas Ayyadevara; Robert Joseph Shmookler Reis
Journal: Front Oncol Date: 2014-10-30 Impact factor: 6.244

Review 10. Reappearance from Obscurity: Mammalian Rad52 in Homologous Recombination.

Authors: Kritika Hanamshet; Olga M Mazina; Alexander V Mazin
Journal: Genes (Basel) Date: 2016-09-14 Impact factor: 4.096

48 in total

1. BLM's balancing act and the involvement of FANCJ in DNA repair.

Authors: Srijita Dhar; Robert M Brosh
Journal: Cell Cycle Date: 2018-09-23 Impact factor: 4.534

Review 2. RAD51 Gene Family Structure and Function.

Authors: Braulio Bonilla; Sarah R Hengel; McKenzie K Grundy; Kara A Bernstein
Journal: Annu Rev Genet Date: 2020-07-14 Impact factor: 16.830

3. The DNA repair helicase RECQ1 has a checkpoint-dependent role in mediating DNA damage responses induced by gemcitabine.

Authors: Swetha Parvathaneni; Sudha Sharma
Journal: J Biol Chem Date: 2019-08-23 Impact factor: 5.157

Review 4. RecQ and Fe-S helicases have unique roles in DNA metabolism dictated by their unwinding directionality, substrate specificity, and protein interactions.

Authors: Katrina N Estep; Robert M Brosh
Journal: Biochem Soc Trans Date: 2017-12-22 Impact factor: 5.407

5. Targeting Allostery with Avatars to Design Inhibitors Assessed by Cell Activity: Dissecting MRE11 Endo- and Exonuclease Activities.

Authors: Davide Moiani; Daryl A Ronato; Chris A Brosey; Andrew S Arvai; Aleem Syed; Jean-Yves Masson; Elena Petricci; John A Tainer
Journal: Methods Enzymol Date: 2018-02-22 Impact factor: 1.600

6. Discovery of Stereospecific PARP-1 Inhibitor Isoindolinone NMS-P515.

Authors: Gianluca Papeo; Paolo Orsini; Nilla R Avanzi; Daniela Borghi; Elena Casale; Marina Ciomei; Alessandra Cirla; Viviana Desperati; Daniele Donati; Eduard R Felder; Arturo Galvani; Marco Guanci; Antonella Isacchi; Helena Posteri; Sonia Rainoldi; Federico Riccardi-Sirtori; Alessandra Scolaro; Alessia Montagnoli
Journal: ACS Med Chem Lett Date: 2019-03-13 Impact factor: 4.345